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Engineered Microvessels with Strong Alignment and High Lumen Density Via Cell-Induced Fibrin Gel Compaction and Interstitial Flow

机译：通过细胞诱导的纤维蛋白凝胶压实和间质流具有强排列和高流明密度的工程化微血管

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The development of engineered microvessels with clinically relevant characteristics is a critical step toward the creation of engineered myocardium. Alignment is one such characteristic that must be achieved, as it both mimics native capillary beds and provides natural inlet and outlet sides for perfusion. A second characteristic that is currently deficient is cross-sectional lumen density, typically under 100 lumens/mm²; the equivalent value for human myocardium is 2000 lumens/mm². Therefore, this study examined the effects of gel compaction and interstitial flow on microvessel alignment and lumen density. Strong microvessel alignment was achieved via mechanically constrained cell-induced fibrin gel compaction following vasculogenesis, and high lumen density (650 lumens/mm²) was achieved by the subsequent application of low levels of interstitial flow. Low interstitial flow also conferred microvessel barrier function.

机译：具有临床相关特征的工程化微血管的发展是迈向工程化心肌的关键一步。对准是必须实现的一种特性，因为它既可以模拟天然毛细管床，又可以为灌注提供自然的入口和出口侧。当前不足的第二个特征是截面管腔密度，通常低于100流明/ mm ^{2 ；人心肌的当量值为2000流明/ mm ^{2 。因此，这项研究检查了凝胶压实和间隙流动对微血管排列和管腔密度的影响。血管生成后，通过机械约束细胞诱导的纤维蛋白凝胶压实，可实现强微血管排列，随后施加低水平的组织间隙流可实现高流明密度（650流明/ mm ^{2 ）。低的间隙流量还赋予了微血管屏障功能。}}}

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期刊名称 Tissue Engineering. Part A
作者
Kristen T. Morin; Jessica L. Dries-Devlin; Robert T. Tranquillo;
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年(卷),期 -1(20),3-4
年度 -1
页码 553–565
总页数 13
原文格式 PDF
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1. Engineered Microvessels with Strong Alignment and High Lumen Density Via Cell-Induced Fibrin Gel Compaction and Interstitial Flow [J] . Morin Kristen T., Dries-Devlin Jessica L., Tranquillo Robert T. Tissue engineering, Part A . 2014,第3a4期

机译：通过细胞诱导的纤维蛋白凝胶压实和间质流具有强对准性和高流明密度的工程化微血管
2. Cell-Induced Alignment Augments Twitch Force in Fibrin Gel-Based Engineered Myocardium via Gap Junction Modification [J] . BlackL.D., MeyersJ.D., WeinbaumJ.S., Tissue engineering, Part A . 2009,第10期

机译：基于间隙连接修饰的纤维蛋白凝胶工程心肌细胞诱导的排列增强抽搐力。
3. Guided sprouting from endothelial spheroids in fibrin gels aligned by magnetic fields and cell-induced gel compaction. [J] . Morin KT, Tranquillo RT Biomaterials . 2011,第26期

机译：在磁场和细胞诱导的凝胶压实作用下，从纤维蛋白凝胶中的内皮球体引导出芽。
4. ENGINEERED MICROVESSELS SUBJECTED TO INTERSTITIAL FLOW [C] . Kristen T. Morin, Jessica L. Dries-Devlin, Robert T. Tranquillo ASME bioengineering conference . 2014

机译：间隙流作用的工程微船
5. The development and alignment of engineered microvasculature in fibrin gel. [D] . Morin, Kristen Thatcher. 2012

机译：纤维蛋白凝胶中工程微血管的开发和排列。
6. Cell-Induced Alignment Augments Twitch Force in Fibrin Gel–Based Engineered Myocardium via Gap Junction Modification [O] . Lauren D. Black III, Jason D. Meyers, Justin S. Weinbaum, -1

机译：细胞介导的对齐增强通过缝隙连接修饰的纤维蛋白凝胶工程心肌中的抽搐力。
7. Engineered Microvessels with Strong Alignment and High Lumen Density Via Cell-Induced Fibrin Gel Compaction and Interstitial Flow [O] . Kristen T. Morin, Jessica L. Dries-Devlin, Robert T. Tranquillo 2013

机译：通过细胞诱导的纤维蛋白凝胶压实和间隙流动的设计微孔和高腔密度具有强烈的对准和高腔密度

Engineered Microvessels with Strong Alignment and High Lumen Density Via Cell-Induced Fibrin Gel Compaction and Interstitial Flow

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